Ring for transmitting torque and for axially securing two rotating components

ABSTRACT

The invention concerns an apparatus for torque transmission and axial securing of a first ( 24 ) and a second ( 26 ) torque conducting component. The apparatus has the form of a ring shaped component ( 20 ), which possesses along its circumference projections ( 22 ) which are spaced from one another and which are insertable in such a manner in the spaces between projections ( 28 ) of the second component ( 26 ) which lies on a surface ( 30 ) of the first component ( 24 ), that the sides of the projections ( 22 ) which face the surface ( 30 ) of the first component ( 24 ) can be affixed to the first component ( 24 ).

[0001] The present invention concerns an apparatus for the simultaneous transmission of torque and axially securing two torque carrying components, in accord with the generic concept of claim 1 and the invention further concerns a procedure for the connection of two torque carrying components with this apparatus.

[0002] In the following, in connection with the FIGS. 1 to 3, known arrangements for the transmission of torque between two torque carrying components is explained and described.

[0003] For example, in FIG. 1, a torque transmission occurs between an internal gear 1 and a come-along part 2 in the form of a cylinder of a multi-plate clutch (not described in further detail), whereby, in the cylinder in a known way, a piston 3 is placed in an axially movable manner, which piston, in regard to the cylinder, is sealed by a ring seal 4. To accomplish the torque transmission the back of the cylinder and the internal gear are welded together at their respective contiguous surfaces 1′ and 2′. A disadvantage of such a design is to be found, in that the internal gear 1 and the cylinder are compelled to rotate together and no tangential, radial or axial play adjustments are possible.

[0004]FIG. 2 shows a known arrangement for the transmission of torque, between an internal gear 1 and a come-along part 2, wherein in the internal gear 1 on that side proximal to the come-along part 2, a toothed crown 6 is placed, into the teeth of which the complementary teeth 7 of the come-along part 2 axially engage. In the axial direction the come-along part 2 is secured by a ring spring 8 as shown in the presentation of FIG. 2. The problem with this arrangement is especially to be found in that for each internal gear 1 a separate milling operation must be carried out to produce the said crown teeth 6. It is obvious, that such a manufacturing step for internal gears is extremely costly. Beyond that, an additional component in the form of a ring spring 8 is necessary, whereby the manufacturing costs for the apparatus become even more expensive. This construction, however, does permit, in the desired manner, certain tangential, radial and axial play adjustments.

[0005]FIG. 3 presents still another means of transmission of torque, in which in the come-along part 2, a crown toothing 10 is supplied, into which the crown toothing 12 meshes, wherein crown toothing 12 is to be found on a radial flange 14 which projects over the internal gear 1. Even this solution to the problem is obviously expensive and costly, because, first in the come-along part 2, in a separate operation, a stamped out crown toothing 10 must be made, and second in the internal gear 1, the crown toothing 12 must be made by a separate milling operation. Besides this, also an additional component for the axial securement, again in the form of a ring spring 8 is necessary.

[0006] The purpose of the invention is to create an apparatus for simultaneous torque transmission and axial securement of two torque conducting components, which enable a relative simple connection of the two components and allow a tangential, radial and axial play compensation. Beyond this, the invention creates a procedure for the connection of two torque conducting components with the said apparatus.

[0007] The purpose of the invention is achieved by an apparatus for simultaneous torque transmission and axial securement of two torque conducting components employing the features of patent claim 1 and by a procedure having the features of patent claim 7.

[0008] The essential advantage of the invention is to be found therein, in that a connection between two components is achievable in a particularly simple way, on the end face of the first component a toothing of a second component is axially placed, an invented component, which exhibits the form of a segmental ring is axially placed against the toothing of the second component, in such a manner, that respectively, a projection of the component engages in an opening between two teeth of the second component and lies on the end face of the first component, and that finally the projection which engages into the opening is fastened to the first component.

[0009] In this way, between the first and the second component a tangential play, a radial play and an axial play are assured, and, at the same time, it is avoided that an the first component an expensive crown toothing is necessary. The said compensation in tangential, radial and axial directions is achieved advantageously simultaneously with the axial securement between the two components of the invented apparatus. Advantageously, the invented component can be made by a simple stamping and forming operation.

[0010] In accord with a further advantage of the invention, also the second component can be produced having its toothing also made by means of a stamping operation.

[0011] The component connection can, advantageously, be produced with a small radial space demand, since no ring spring mounting is necessary.

[0012] Advantageous embodiment of the invention may be found in the subordinate claims.

[0013] In the following, the invention and the embodiments thereof will be explained and described in greater detail with the aid of the drawings. There is shown in

[0014]FIG. 1 is a known kind of torque transmission between two components, wherein the components are butt-welded together;

[0015]FIG. 2 is a further known kind of torque transmission between two components, whereby the one component engages itself in a crown toothing of the other and for axial securement, an additional ring spring is provided;

[0016]FIG. 3 is a further known kind of torque transmission between two components, wherein the two components engage each other by means of two crown toothings and for axial security, an additional ring spring is provided;

[0017]FIG. 4 is a perspective presentation of the invented apparatus in the form of a segmented ring;

[0018]FIG. 5 is a side view between the section lines V-V of the invented apparatus shown in FIG. 4;

[0019]FIG. 6 is a partial section of an axial view of the two components as well as the segment ring to explain the tangential and radial compensation of plays;

[0020]FIG. 7 is an axial section through the invented apparatus mounted on two components, and

[0021]FIG. 8 is a view corresponding to the sectioning of VIII-VIII.

[0022] In accord with FIG. 4, the present apparatus is essentially in the form of a circular ring shaped component 20, which, along its circumference possesses projections 22, each projection distanced from the other. Advantageously, these said projections 22 can be formed by a stamping operation from the ring shaped component 20 to extend out of one side. So constructed, this one side represents, as seen in FIGS. 7 and 8, the side facing the first component 24, and also facing the second component 26, which components, by means of the invented apparatus, are to be fastened together for the simultaneous transmission of torque and to insure against axial movement. In this arrangement, the first component 24, in accord with FIG. 7, advantageously has the shape of an internal gear, against which a come-along part of the second component 26 is to be engaged. Along its circumference, component 26 advantageously has equally spaced, toothlike projections 28, which are to lie against a side 30 of the first component 24 which faces them.

[0023] For the radial and axial engagement of the components 24 and 26 to one another, the component 20 is so set upon the components 24, 26, which lie one against the other, that the projections 22 of the component 20 penetrate into the spaces between the projections 28 of the component 26. This allows the end faces of the projections 22 facing the component 24 to lie on the surface 30 of the component 24.

[0024] The true connection of the component 20 onto the component 24 is then done by means of a fastening operation, advantageously by means of a welding procedure, especially by means of an economical KE-welding method or a laser or BE welding with a radial welding beam. In certain cases of application, consideration can be given to making the connection by adhesive means.

[0025] Now, in accord with FIG. 6, the projections 28 of the component 26 are trapped between the projections 22 of the component 20, whereby the possibility of a tangential play ST as well as a radial play SR exists. The axial security is carried out, as this is also to be seen in FIG. 8, by the acceptance of the projection 28 of the component 26 between the surface 30 of the component 24 and, respectively, sections of component 20 which bridge over two projections 22 of component 20, which gives rise to the possibility of an axial play.

[0026] In accord with the FIGS. 4, 5 and 8, consideration can be given in the stamping operation, when the projections 22 are made in the ring shaped component 20, to produce simultaneously on the said projections 22 a riblike extension 34 on the side facing the component 24. After the insertion of the projections 22—as has been explained—in the spaces between the projections 28 of the component 26, these extensions find themselves lying against the surface 30 of the component 24. In accord with FIG. 8, these riblike extensions 34 can be used as a welding material supply, which, during the execution of the welding operation become welding seam 32.

[0027] During the stamping operation, in the making of the riblike extensions 30 on the opposite positioned side respectively, there is formed a corresponding recess 36 in the ring shaped component 20 opposite the projection 22. Advantageously, the component is composed of steel. Reference numbers and Equipment Items  1 Internal gear  1′ Surface  2′ Surface  3 Piston  4 Ring seal  6 Crown toothing  7 Teeth  8 Ring shaped spring 10 Crown toothing 12 Crown toothing 14 Flange 20 Component 21 Projection 22 Projection (of 20) 24 Component (First) 26 Component (Second) 28 Projection 30 Surface 32 Welding seam 34 Extended projection (welding material) 36 Indent by stamping above 3 

Claimed is:
 1. An apparatus for torque transmission and axial securement of a first (24) and a second (26) torque conducting component, therein characterized, in that the apparatus is in the form of a ring shaped component (20), which has spaced projections (22) along its circumference, which can be inserted in such a manner in the spaces between projections (28) of the second component (26) which lies against a surface (30) of the first component, that the end faces of the projections (22) which face the surface (30) of the first component (24) can be affixed to the surface (30) of the first component (24).
 2. An apparatus in accord with claim 1, therein characterized, in that the projections (22) along the circumference of the component 20 are spaced equally from one another.
 3. An apparatus in accord with claim 1 or 2, therein characterized, in that the ring-shaped component (20) and the projections (22) are produced simultaneously by a stamping and forming operation.
 4. An apparatus in accord with claim 1 to 3, therein characterized, in that each of the projections (22) on that side facing the surface (30) of the first component (24) possesses a rib-shaped extension (34) running in the circumferential direction of the component (20).
 5. An apparatus in accord with one of the claims 1 to 4, therein characterized, in that the component 20 is composed of steel.
 6. An apparatus in accord with one of the claims 4 or 5, therein characterized, in that the rib-shaped extensions (34) of the projections (22) are made simultaneously with the stamping of the projections (22).
 7. A procedure for the fastening of a first (24) and a second (26) torque conduction component together with an apparatus in accord with one of the claims 1 to 6, therein characterized, in that on a surface (30) of the first component (24), the projections (28) of the second component are brought into contact, in that the component (20) is axially brought into contact with the second component (26) in such a manner, that the projections (22) of the component (20) each engage in the space between the adjacent projections (28) of the second component (26), in such a manner that their sides which face the first component (24) lie on the surface (30) of that first component (24) and in that the projections (22), by means of a fastening operation are affixed on the surface (30) of the first component (24).
 8. A procedure in accord with claim 7, therein characterized, in that the projections (22) of the component (20), if necessary, by means of the use of the materials of the rib-shaped extensions (34) of the projections (22) of the component (20), are affixed onto the surface (30) of the first component (24) by means of a welding operation.
 9. A procedure in accord with claim 8, therein characterized, in that the welding of the component (20) is carried out by an KE welding operation.
 10. A procedure in accord with claim 8, therein characterized, in that the welding of the component (20) is carried out by a laser welding operation or an EB welding operation.
 11. A procedure in accord with claim 9 or 10, therein characterized, in that the fastening of the projections (22) is carried out by adhesive means. 